UMLS:C0004352 - FACTA Search

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Query: UMLS:C0004352 (autism)
32,579 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Fragile X syndrome is defined by the combination of a characteristic phenotype, cognitive impairment, the presence of a fragile site (gap) detectable in folate-free culture medium on Xq27.3 called FRA X A, and transcriptional inhibition, through overmethylation, of an mRNA protein-binding gene called FMR-1. 2. It is inherited in an atypical X-linked dominant way and affects about 1 in 1000 males and 1 in 2000 females; about 1 in 700 females is a carrier. 3. A characteristic but subtle phenotype includes an elongated face and mandible, large ears, macrocephaly with bizygomatic pinching, soft skin, inconsistent mitral valve prolapse, macroorchidism, mildly shortened stature in adulthood, and characteristic behavior that may resemble autism and attention deficit disorders. Intellectual impairment in affected individuals varies from mild to severe, with a majority of affected males within the moderate range of cognitive disability. Twenty percent of males with the mutation are phenotypically and intellectually unaffected. They ae called transmitting males. 4. Female heterozygotes may be indistinguishable from the general population, or they may have subtle physical signs or both physical and intellectual impairment. 5. Sensory motor integration is the therapy of choice for the learning disabilities in children with fragile X syndrome. The benefits of folic acid supplementation are equivocal. 6. A sensitive and understanding support system for the patient and extended family is an inseparable component of appropriate management of fragile X syndrome. 7. Molecularly the mutation is characterized by varying lengths of DNA fragments consisting of the trinucleotide CGG. It is repeated about 6 to 50 times in the normal population and approximately 51 to 200 times in unaffected individuals with a so-called premuation who are at risk for expansion and transmission to offspring. Individuals with over 200 repeats are usually affected and said to have a full mutation. 8. The physician caring for a family with fragile X syndrome should work with an experienced genetics center, counselor, and a laboratory with expertise.
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PMID:Fragile X syndrome. 799 87

Family and medical histories, autistic and dysmorphic features, and neurological status of 5 children with autism and hyperlexia and 5 sex and IQ-matched children with autism and no hyperlexia were compared. Results showed that the children with hyperlexia displayed more persistent echolalia, superior visual motor performance, and more favorable response to vestibular stimulation. These children performed better than did their matched controls in the physical and neurological assessment. Two of these children, one of whom had a sibling with hyperlexia, presented with macrocephaly. Both groups had a similar incidence of dysmorphic features, computerized tomographic and EEG abnormalities, and family morbidity. Results suggest that children with autism and hyperlexia probably represent part of the continuum of autism rather than a specific syndrome.
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PMID:Autism with hyperlexia: a distinct syndrome? 837 66

To assess head circumference in children with autism, 148 charts were retrospectively reviewed. All of the children met the Diagnostic and Statistical Manual of Mental Disorders (DSM-III or DSM-III-R) criteria for autism and had no known underlying condition that might affect head circumference. In addition, data were collected regarding height, weight, brain imaging, cognitive development, adaptive behavior, and language. The children were divided into two groups: those with head circumference at or above the 98th percentile (Group 1) and those with head circumference below the 98th percentile (Group 2). Group 1 consisted of 27 (18.2%) of the children. Height measurements were significantly higher in Group 1 as compared with Group 2 (P = .0006) as were weight measurements (P = .0003). Group 1 had a significantly lower percentage of females (P = .04) and lower adaptive behavior scores (P = .0067) than Group 2. Routine brain imaging studies could not explain the macrocephaly in Group 1. The etiology of large head circumference and increased growth indices in children with autism is unclear.
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PMID:Head circumference measurements in children with autism. 887 7

In this paper the results of an extensive medical investigation of 25 children with childhood autism are presented and compared with those found in a group of non-autistic individuals matched for sex, age and intellectual level, all referred for developmental deviancy of unknown etiology. The examination included a psychiatric assessment and a neurological examination in addition to neurophysiological, chromosomal, metabolic and neuroimaging evaluation. In the clinical examination macrocephaly was found only among the autistic individuals, while the frequency of pathological cerebral CT and clinical parameters such as tendon reflexes and mobility problems was significantly greater in the control group. All the other pathological findings were found to occur with the same frequency in the two groups. Except for research purposes this study did not lend support to those who argue for extensive medical examinations for all children with autism. Based on the present findings, ordinary procedures for assessment of developmentally delayed children should be followed. This should include a systematic clinical neuropaediatric examination, an assessment of vision and hearing and a chromosome study, including that for fragile X.
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PMID:Childhood autism: the need for physical investigations. 966 67

Data from a series of 126 autistic children ages 2-16 years and referred to an Autism Diagnosis Unit in South-West France were examined. Macrocephaly (head circumference > 97th centile) was observed in 16.7% of the sample, a significantly higher proportion than that expected. Macrocephaly was more frequent among older subjects but was otherwise not associated with gender, developmental level, the presence of epilepsy or of medical disorders, or severity of autistic symptomatology. Microcephaly (head circumference < 3rd centile) was also significantly raised and found in 15.1% of the sample. Microcephaly was significantly associated with the presence of medical disorders. Results support those from recent studies suggesting a raised rate of macrocephaly in autism which, pooling published data, can be estimated to be 20%. It is argued that the raised incidence of microcephaly among low-functioning autistic subjects with medical disorders might have contributed to delay the recognition of an increased head circumference among a minority of subjects with idiopathic autism.
J Autism Dev Disord 1999 Apr
PMID:Microcephaly and macrocephaly in autism. 1103 65

The present paper addresses post mortem pathological and neuropathological findings in two males with fragile-X syndrome, aged 67 and 87 years. Both subjects died from sudden, unexpected cardiovascular causes, and both showed abnormalities of the mitral valve, ventricular hypertrophy and cardiomegaly. Both cases demonstrated macrocephaly characteristic of the classical Martin-Bell phenotype in FRAXA. There was increased brain weight in both cases: macroscopically, both cerebral and cerebellar hemispheres appeared normal, but dilated lateral ventricles were seen; and microscopic examination of the brain in case 2 showed normal hexalaminar architecture and no gross neuronal dropout. The hippocampus showed mild CA4 pyramidal cell loss and associated gliosis. The cerebellum showed focal Purkinje cell loss and corresponding Bergmann gliosis. Whilst there is a need to delineate the microscopic features of fragile-X syndrome from those of the ageing process, there is an urgent need for more systematic neuropathological studies of fragile-X syndrome; the increased brain weight and Purkinje cell loss in autism and fragile-X syndrome reopens the debate on these two conditions. The case for further research into the cardiac anomalies in fragile-X syndrome is also strengthened by the findings. Finally, the present report confirms the role of interstitial cell hyperplasia as the major cause of megalo-testes in this condition.
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PMID:Pathological and neuropathological findings in two males with fragile-X syndrome. 1071 53

Based on cases that had been excluded from a previous clinical study of Sotos syndrome, Cole and Hughes [1991: Am J Med Genet 41:115-124] reported a new syndrome associated with marked obesity, occasional delayed bone age, distinctive facial anomalies, mental retardation, and progressive postnatal macrocephaly in the context of autosomal dominant familial macrocephaly. Subsequently, Stevenson et al. [1997: Lancet 349:1744-1745] emphasized the association of progressive postnatal macrocephaly with autism, and they suggested that this might comprise a recognizable autism syndrome. We report two additional patients with Cole-Hughes syndrome and associated autistic characteristics with attention deficit hyperactivity disorder. These patients seem to manifest a distinctive behavioral phenotype associated with Cole-Hughes syndrome and they manifest a distinct subgroup of persons with autism that may ultimately shed light on the pathogenesis of this disorder.
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PMID:Cole-Hughes macrocephaly syndrome and associated autistic manifestations. 1098 71

To assess the prevalence of macrocephaly (head circumference > or = 1.88 standard deviations above normative data for age and sex or > 97th centile) in autism and other pervasive developmental disorders, 41 children with autism, and a comparison group of 21 children with tuberous sclerosis complex (TSC) or an unspecified seizure disorder were studied. Familiality of head circumference was also assessed from measurements of 133 first-degree relatives. Significantly higher rates of macrocephaly were found in probands with autism (12.2%) and their first-degree relatives (15.5%) when compared against a published normative sample. The incidence of macrocephaly in the comparison group of probands with TSC and seizure disorder (9.5%) and their first-degree relatives (8.3%) was higher than normative data as well, although the relation between macrocephaly and autism was more pronounced. Head circumference and extreme scores reflecting macrocephaly were moderately heritable in the present sample (H2 = 0.47). The increased prevalence of macrocephaly in relatives of children with autism compared with control children suggests that this characteristic may be a familial risk factor in the pathogenesis of autism.
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PMID:Macrocephaly in autism and other pervasive developmental disorders. 1110 44

Occipitofrontal circumference (OFC) is one of the few physical findings in autism that varies significantly from the norm and is distinct and measurable. As part of a study of genetic heterogeneity of autism, we scrutinized data from a large sample of patients with idiopathic autism (N = 137), using OFC as the categorizing variable. The OFC standard deviation (OFCSD) values of the autistic propositi (0.61+/-1.6) varied significantly from that of the normal population (0.0+/-1.0), (P<0.001). Comparison of the macrocephalic (OFCSD > 2.0, N = 32) with the normocephalic individuals (-2 SD < OFCSD < +2 SD, N = 95) showed no significant differences in sex ratio, morphological status, IQ, seizure prevalence, or recurrence risks. The macrocephalic individuals were slightly less apt than those with normocephaly to have a family history of Attention Deficit Hyperactivity Disorder (ADHD) (P<0.05). Each clinical subgroup of autism propositi, defined on the basis of phenotypic status, type of onset, seizure history, or IQ, had a higher than normal mean OFC indicating that macrocephaly is an independent clinical trait in autism. As in the non-autistic population, macrocephaly was highly familial with 45% of the macrocephalic and 37% of the normocephalic propositi having at least one macrocephalic parent. Microcephaly, however, was an independent significant variable that predicted the presence of other phenotypic or genetic traits and outcome. The microcephalic patients were more likely to have abnormal physical morphology, structural brain malformations, lower IQ, and seizures. Their sex ratio was closer to normal, and their relatives had a higher incidence of seizures.
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PMID:Head circumference is an independent clinical finding associated with autism. 1175 72

We report on a mother and son with Cowden syndrome and a PTEN mutation. The boy also exhibits autistic behavior and mental retardation, while his mother has a normal intelligence and social interaction pattern. We review the scanty literature data on the association of Cowden syndrome and autism and emphasize that the association of progressive macrocephaly and pervasive developmental disorder seems to be an indication for screening for PTEN mutations.
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PMID:PTEN mutation in a family with Cowden syndrome and autism. 1149 68

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